Method of and apparatus for forming hollow glass articles



2 Sheets-Sheet l G. E. ROWE Filed April 18, 1936 @ZM QM @o w ou METHOD OF AND APPARATUS FOR FORMING HOLLOW GLASS ARTICLES Jan. 3, 1939.

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Jan. 3, 1939. G. E. RowE 2,142,954

METHOD OF' AND APPARATUS FOR FORMING HOLLOW GLASS ARTICLES Filed April 18, 195e 2 Sheets-sheet 2 --fuNlTl-:D STATES PATNT OFFICE Patented 3, 1939 METHOD F AND APPARATUS FOR FORM- ING HOLLOW GLASS ARTICLES Application April 18, 1936, Serial No. 75,156

This invention relates to a method of and apparatus for forming hollow glass articles and more particularly to forming such articles in a manner such that they will be substantially free from defects, due to what is known in the art as a settle wavei. I

One of the most common defects in hollow glassware made by commercial processes and apparatus is what is known as a settle wave. In certain well known Icommercial methods of manufacturing hollow glass articles, such as bottles, a charge of plastic glass is supplied downwardly intothe open upper end of an inverted blank mold of larger capacity than the charge and having a neck ring associated with its lower end and a neck pin associated with the neck ring. Settle-blowing interior portions of the glass soaking through and "1 softening the skin, which has been formed by` contact with the neck pin. This has been an essential step in prior practices, due to the fact that it/has been impractical to supply blowing pressureto expand the cavity started by the neck pin until the glass bounding that cavity has softened to permit the proper expansion thereof.

However, during this period of time devoted to A corkage reheat, the glass in contact .with the blank mold at the sides thereof has, of course.

alsoformed a certain amount of skin, due to heatV being abstracted from the surface of the glass faster than heat can flow by conduction through the glass from the hotter central portion of the t charge.

Thereafter counterblowing pressure has been supplied to expand the glass into conformity with the internal cavityvof` the blank mold and up against a suitable baille. .When this was done in the ordinary `case, the portion of glass which was previously in 'contact with the sides of the mold remained substantially stationary, the hotter central portion ofthe glass body rolling out and contactingV with the upper portions of they mold.

,After the parison was counterblown. some time was permitted for the glass to form a certain amount of skin, so that the parison which was That is,

thereby formed, might retain the shape imparted to it during the subsequent transfer.

As will be'obvious from the above description, the portion of glass initially in contact with the mold during the entire settle blowing and counterblowing had a longer period of contact therewith than that portion whichwas forced into Y contact with the mold by the counterblowing operation, and. asa result there was a thicker skin formed on the parison for the portion initially in contact with the mold during the settle blowing than the remaining portion of the parison.

This differential skin thickness was never l wholly eliminated, so that the articles thus producedl had walls of two materially different thickl5- `sightly, but the differential thicknesses require more glass to provide a given strength to the article than would be required if the walls thereof were of more uniform thickness. Thus the settle wave" has its origin to a major extent at least in the fact that the glass is in contact for a materially longer time with the mold at one portionthan'at another, and this difference in time of contact is augmented to an undesired extent by the necessity of providingcorkage reheat.

An object of the invention is to provide a novel method and apparatus whereby lighter and more sightly glassware may be produced by the substantial elimination ofthe settle wave, and thereby both to improve the quality of the ware and reduce the cost of its manufacture.

A further object of my present invention is substantially tofeliminate the settlewave in comy mercial glass articles by substantially wholly Y eliminating the time period heretofore devoted to corkagereheat `and specifically to provide a v *novel method permitting the elimination ofV this corkage reheat period and novel apparatus usable in the performance-of they method for attaining the desired results. u

Further and more detailed objects and advantages of thepresent invention will ,be appar- Yent from the following specification and appended Y claims, all whentaken in connection'l with the ,accompanyingdrawings, in which:

vFigures Into 5.illustrate diagrammatically in .vertical section certainl apparatus and also various method steps in the forming of a glass article,

such as a bottle, in accordanceV with the present invention, Fig. 1 showing the charging of a blank 5F mold, Fig. 2, the settling of the charge in the blank mold, Fig. 3, the counterblowng of that charge also in the blank mold to form a parison, Fig. 4, the parison after having been transferred to a nal blow mold, and Fig. 5, the completion of the formation of an article from the parison formed as aforesaid;

Fig. 6 illustrates in vertical section a fragmentary detail of mechanism constituting a slight modification of the mechanism shown in Figs. 1 to 3 inclusive;

Fig. 7 is a view similar to Fig. 6, but showing a further modified form of apparatus;

Fig. 8 is a view similar to Figs. 6 and 'l showing a still further modification;

Figs. 9, 10 and 11 are similar to Figs. 1, 2 and 3 respectively, but show a further modiiied form of the apparatus by which the general method may be performed;

Fig. 12 is an enlarged'view in vertical section of certain of the mechanism employed in Figs. 9, 10 and 11;

Figs. 13, 14 and 15 area series of views, similar to Figs. 9, 10 and 11 respectively and showing a still further modication of my invention; and

Fig. 16 is `anenlarged view in vertical section illustrating certain of the mechanism employed in the form of the invention shown in Figs. 13 to 15.

While I contemplate that my invention both from a method point of view and using the same or some equivalent apparatus may be employed in conjunction with many types of machines, I have chosen to illustrate the invention using apparatus which may be used directly with a now well-known commercial machine known as the Hartford I. S. machine and disclosed in substantially that form in the Ingle Patent No. 1,911,119, granted May 23, 1933. Reference will be made to that patent in the following description to show how the several instrumentalities shown diagrammatically herein may be super- The form of the invention of Figs. 1 to 5,

- inclusive Referring now to Figs. 1 to 5 of the drawings, I have shown a blank mold at I, which may correspond to the mold I of the machine shown in Figs. 4 and 5 of the Ingle patent. Associated with this mold in the present case is a neck ring 2, which may be of conventional form and may be constructed, mounted and operated in the same manner as the neck ring 3 of the Ingle patent, the neck ring being associated as shown with the lower end of the mold I and the upper end of that mold being open as illustrated in Fig. 1 of the accompanying drawings for the receipt of a charge of plastic glass supplied thereto fromabove by any suitable means, which may be the same as or equivalent to the means contemplated for use with the Ingle machine and disclosed in that patent.

It will be noted that the neck ring 2 of Figs.

1v to 3 has associated therewith a member 3,

the grooves provided therefor. This structure is not found in the Ingle patent, but may be employed in the commercial machine.

Associated with the neck ring 2 is a neck pin assembly generally indicated at l, which in the present instance comprises an outer supporting structure 5, which carries integral or rigid therewith at its upper end a neck pin 6 adapted for contact at its sides with the glass, which is forced into the neck ring to form the finish for the article. As shown, the neck pin 6 is integral with the structure 5. The neck pin 6 as shown is provided with an aperture 'l therethrough into which extends a plug portion 8 of a valve member 9, the plug portion 8 substantially lling the aperture 1 in the upper position of the member 9 shown in Figs. 1 and 2, so that the upper end of the plug portion 8 forms a part of the top or end of the neck pin 6. 'I'he upper end of the neck pin as shown in Figs. 1 to 3 is reentrant, so as to provide a small space in which air may be trapped upon the downward movement of glass into the mold, either during the charging of the mold as shown in Fig. 1 or during the settling of that charge Ashown in Fig. 2, thus Vproviding a small airpocket illustrated at I0, Fig. 2, which will serve to prevent chilling contact between the end of the neck pin land the glass opposite it.

It will be noted that the parts 5 and' 9 may be operated by the mechanism disclosed in the Ingle patent. For example, the member 5 shown in Figs. 1 to 3 of the accompanying drawings may be secured to the piston |38, shown in Figs. 5 and 15 of Ingle, by the same or equivalent means as the split collar members Ill! of Ingle, while the member 9 of the accompanying drawings may be operated by the same or equivalent means as the piston rod |55 of Ingle (see Fig. 15 of the Ingle patent), the connection between these parts being made in any suitable manner, as for example that disclosed by Ingle.

The parts shown in Figs. 1 to 3 of the accompanying drawings may be operated as follows. Starting with the parts in the position yshown in Fig. 1, that is with the members 5 and 9 elevated to their uppermost positions, a charge of glass II may be supplied to the mold I through the open upper end I2 thereof. During this period pressure may, if desired, be on in the space I3 within the member 5, but it is prevented from passing through the neck pin into the glass due to a seal between mating surfaces of the members 5 and 9 at Il.

A head generally indicated at I5 (Fig. 2) may be moved to position in association with the upper end of the mold I, this head corresponding generallyy to the head 85 of Fig. 5 of the Ingle patent, except that no funnel need be used therewith in guiding a charge into the mold `due to the configuration of the upper portion o f the m'old, as shown in Figs. 1 to 3 of the present drawings. AIt will be understood that the head I5 may be carried by an arm here shown at I6 and operated in the same manner as the head l5 of Ingle except that it is moved but once into contact with the mold for both the settling and the counterblowing of each article. Settle blowing pressure may be supplied through -a bore I1 in the arm I 8 and through a suitable bore in the head I have illustrated in the head I5, a valve member I9, which is normally urged to closed position by a compression spring I9, surrounding the stem 20 of the valve I8 and interposed between a shoulder 2| in the head I5 and a suitable washer or other detent 22 secured to the stem 20. It will be understood that the pneumatic pressure ilowing through the head from the passage I1 will be eiective to unseat the valve I8 against the compression of the spring I9 and to ow along the valve stem, which is loosely received in the bore in the head, past the valve I8 and into the upper end of the mold I to settle the glass.

During the charging and settling of the glass in the mold as disclosed in Figs. 1 and 2, the glass will engage the outer periphery of the end of the neck pin 6 and also will be forced down the sides thereof to fill the cavity within Athe neck ring about the neck pin. There will, however, be a small amount of air trapped in the reentrant end portion of the neck pin which will in practice prevent such contact between the glass and the end of the neck pin as would permit the formation of a skin upon the glass at that point, due to the' heat abstraction from the glass in contact with the cooler neck pin. Because of this avoidance of skin formation on this glass, it is possible immediately upon the termination of the settling operation to initiate the application of counterblowing,

which in the present instance is done by pressure supplied through the neck pin, all without the necessity of waiting for a predetermined period for "corkage reheat.

As shown, the member 9vis withdrawn as illustrated in Fig. 3 and counterblowing pressure,`

sired counterblowing pressure maybesupplied through the aperture 1 through the neck pin for a time, the neck pin being then withdrawn and further or continued counterblowing pressure thereafter applied, but preferably I retain the neck pin in the position shown in Fig. 3 at least until the glass has been expanded into conformity with the cavity of 'the blank mold.

- Subsequent to the completion of the expansion of the glass to form a parison in the blank mold, as shown in Fig. 3, the parison may be transferred by suitable means, such for example as those disclosed by Ingle, to a final blow mold, here shown at 23, Figs. 4 and 5, which has associated therewith a bottom plate 24, the blow mold closed to supportA the parison as shown in Fig. 4 and final blowing pressure applied through a blow head from some suitable source, all substantially as disclosed by Ingle or in any other suitable or desired manner. This completes the formation of an article according to the disclosure of Figs. 1 to 5 of the accompanying drawings. o

It will be understood that while I have taught in these figures the settling of the glass .by the application of pressure to the upper end of the y mold, any other suitable or desired method of settling the glass may be employed, and I intend to cover by the term -settling" all such settling means and/or methods. i

Further, while I have shown a neck ring and blank mold formed as separate parts for independent movement, it will be understood that under certain circumstances these molds mayy be formed integral as shown, for example in the patent to Ingle No. 1,843,159, granted Feb. 2, 1932,

that is, a part mold and part neck ring as one integral member cooperating with a complementary integral member. It is necessary in making certain types of articles with such mold equipment, however, -to provide some different method of transferring a parison' to a final blow mold from that specifically disclosed by Ingle.

Also, while I have disclosed in Figs. 1 to 5 the manufacture of glass articles, such as bottles, by

what is familiarly termed the "two-mold" orV rig. 6 Jormfof the invention This form of the invention is essentially similar to that previously described for Figs. 1 to 3, except that the upper end of the neck pin 8a forming a part of the member 5a, which correspond generally to the parts 5 and i respectively of Figs.

1 to 3, is not formed with as deep a reentrant portion, as is shown inthe case of the correspondingly numbered parts in Fig. 3, and also the upper end of the plug portion ,8a of the member 9a is formed dat instead of rounded as in the case of the portion 8 shown in Fig. 3. The volume of the bubble of air trappedby the glass at the end of the neck pin in this form of the invention may be substantially `the same as that of the Figs. 1 to.3 form, but under certain circumstances one form or the other may/be the more desirable. In this case, as in the c ase of the structure of Figs. 1 to 3, the seal between the members 5a and 9a is by mating beveled surface at I 4. 'Ihe process of making articles is substantially the same as that previously described.

The Fig. 7 form of the invention This form of the invention has the parts Sb-Bb formed similarly to the parts .5a-6a respectively l of Fig. 6, but'l the part 9b including the plug portion 8b is somewhat different as is also the operation. As shown in this figure, the member 9b is provided with an enlarged longitudinal bore 26 and a lateral bore 2'I, in the same way as the corresponding members 9 and 9a, in which these bores are not numbered. There is, however, in prolongation of the bore 26 a small diameter bore 28 which terminates at its upper end above the mating surfaces I4 in lateral bores 29, winch communlcates with longitudinally extending grooves 30 formed on the sides of the plug member 8by and communicating at their upper ends withthe reentrant'upper end portion I 0b of the neck pin 6b.

Ihe operation in this case is slightly different from that above described in that air preferably under a'low pressuremay be supplied to the space 3| within the member 9b, preferably in advance of the termination of the settling operation, or even under some circumstances during the charging operation, this air flowing through the passages 26, 28, 29and 30 to the space IIIb and thus serving morer positively to form a 'cavity in the glass at the end of the neck pin to prevent skin forming contact between the glass and neck pin at the end thereo f, while contact will be had be-I tween the sides of the neck pin and the glass. `At the termination of the settling operation, this pressure may be continued in the same manner for a short time, or, if desired, air under a higher pressure may be supplied through the same channels. Also, if desired, the member 9b may be withdrawn as illustrated in Fig. 3 for the member 9 and pressure supplied through the neck pin for counterblowing the glass to expand it into'conformity with the internal cavity of the body mold, which it will be understood is associated with the parts specifically snown in Fig. 'l in the same manner as shown in Fig. 3.

There is illustrated in the Ingle patentsee particularly Fig. 15, passages at i52 and i60 through which pressure may be supplied to the space within the member most closely corresponding to the member 9b here shown, so that no additional operating structure need be supplied other than that disclosed by Ingle in carrying out the methods contemplated for use -with the structure of Fig. 1 of the accompanying drawings.

Fig. 8 form of the invention In Fig. 8 I have merely shown a member 5c corresponding generally to the member 5 in the form of the invention shown in Figs. 1 to 3, but having instead of the member 9 or equivalent members within it, a freely movable 'valve member 32, 'which is normally seated in a suitable reces", in the end of the neck pin 6c and is arranged to close the upper end of an aperture 1c through this neck pin. Means are preferably provided for urging the valve member 32 onto its seat. In the present instance, I provide a valve stem 33, which may be integral with the valve member 32 or suitably rigidly secured thereto and which carries at v its lower end a weight 34. It will be understood in connection with Figs. 1 and 2. However, sub,

sequent to the settling operation, counterblowing pressure may be supplied through the passage 35, which will serve to force the valve member 32 oil its seat against the force supplied by the weight 34, the pressure flowing through the aperture 1c along the valve stem 33 and serving to expand the glass in the manner illustrated in Fig. 3. During this time the neck pin 6c is in the position illustrated in Fig. 8, although this expansion may be continued after the withdrawal of 'the neck pin. As previously stated, however, I prefer that the neck pin be retained` in position in contact with the glass at the sides thereof until the glass has been expanded into conformity with the internal cavity of the blank mold, although I contemplate that onoe this expansion has been completed to the extent shown in Fig. 3, I may withdraw the neck pin from contact with the glass while continuing pressure therethrough or therearound to hold the glass in contact with the sides of the mold and with the baille i5 for the desired period of time prior to transferring the parison to a final blow mold for final blowing. In other respects, the process may be carried on in the same manner as above described in respect t FiBS.1t05. f

Fias. 9 to 12 form of the invention In these figures are shown a modification of my invention which differs from the previous forms thereof both in construction and in the manner of use. It is similar, however, in that it provides for the prevention of skin formation on the glass at the end of the neck pin and thus permits the application of counterblowing pressure to expand the glass into conformity with the initial or blank mold without the necessity of a period devoted to corkage reheat.

As in the previous form of the invention, there is illustrated a blank mold i and a neck ring 2a, the neck ring, however, being as shown substantially the same as that of the Ingle patent, rather than provided with an annular centering member as shown at 3 in Figs. 1 to 3. Associated with the neck ring 2a is a nipple member 36, similar to the nipple |39 shown in Fig. 5 of the Ingle patent, both in construction and function, and is adapted to be operated in the sameway. This member serves to form the outer end of the finish of the article in such manner that there will be no seams extending across this outer end.

Within the nipple member 3E is a neck pin 31, which has a reentrant end portion illustrated at 38, Fig. 12. The neck pin 31 is arranged to be secured to and operated by a member 3S which corresponds functionally to the piston rod of the Ingle patent (see Fig. 15) The neck pin 31 is secured to the member 39 by split collar members 40 having inturned flanges engaging the respective portions and being confined in position by a downwardly extending cylindrical portion o' the member 36 as shown. Here again the construction is substantially the same as in the Ingle device. At the upper position of the neck pin 31, a flange 4I thereof forms a seal at 42 against a downwardly directed shoulder portion in the member 36 and prevents ow of fluid pressure past this point. n

'I'he neck pin 31 is provided with a central longitudinal bore 43 through which extends a plug valve member i4 having a head 45 at its lower end, the upper end of the valve member 44 as with the member 31, this pin extending through a vertically elongated slot 43 in the head 45, so that the plug member 44 is permitted a slight vertical movement in respect to the member 31, this movement being determined by the height of the slot 43.

The operation of the parts in Figs. 9 to 12 is as follows. At the time a charge of glass is supplied to the mold I, counterblowing pressure is being supplied through the bore 50 of the member 39, this pressure serving to hold the beveled surfaces 4S and 41 in engagement with one another and thereby preventing upward flow of pressure past the plug member 44. When the grass moves downward in the mold. either due to its initial movement in passing into the mold or during the settling operation, the valve is caused to' move downwardly and separating the beveled surfaces 46 and 41 to permit a momentary flow of pressure past the valve and upward in tl e bore 43 around the plug member 4 into the vupper end of the neck pin to form a cavity in the glass illustrated at This action may be caused by contact of the lower end portion of the glass with the top of the Valve stem or by the pressure of the air caused by the downward momentum of the glass in moving' into the mold and trapping air in the reentrant end portion of the neck pin, the air being rst trapped by the engagement of the glass c with the peripheral part of the en d of the neck pin 'surrounding the reentrant portion, then compressed by further downward movement of the I glass and that pressure increased due to the heating of the trapped air by the glass.

As soon as pressure has formed this cavity, the glass at the end of the neck pin is forced out of contact with the upper end of the plug valve member it and pressure beneath the head #l again seats the valve, engaging beveled surfaces 16 and lll and thus cutting oi further ow of pressure through the neck pin. This is the con- Adition of the parts shown in Fig. during a ber so that pressure may new ow through,

Y the bore bil, thence laterally through several bores 52 in the member 3l to the space Within the member around the member past the which has only a loose nt with the adjacent sides of the cavity in member and thence around the neck pin 3l into e mold to enl Y the cavity initially formed at to expand i glass into conformity with 'Sie cavity in the mold,

as shown ll.

lt will be understood that the step in 'c illustrated in ll shows the completion espansioni of glass to iorm a hollow paris@ that this parison may be tran blow mold, as illustrated Lo. to final form, as illustrated in ner generally described above and more sp ly described example, in the ingle 32"' i3 .i6 ,form of' or/*antico rThis form the invention is similar in respects to previously described and ti-ated in L gs. 9 to l2 of the accompanying ings. There is shown as previously descr' mold Il having s, nie-cir ring 2c associated therewith and a combined settle blow head and counterblow baille l5, which may be constructed and may operatevin the same manner the correspondingly numbered portions of previous iigures. u

-associated with the neck ring is a neck pin structure 53 having a neck pin bil at its upper end. lt will be understood that this structure may be suitably secured to and operated by mechanism corresponding to the piston H313 shown in Fig 15 of the ingle patent, which operates the nipple in that construction. The neck pin 5G is provided at its end with a reentrant portion shown at 55 and with a bore or aperture extending aXially therethrough, and is also provided in the interior of the structuie and surrounding the aperture 5b with a valve seat 5l formed as a beveled surface. Associated with the valve-seat is a ball valve member 5a, which is carried by a valve carrier 59, the latter in turn which corresponds functionally to the. pluijlger` member 39 of Fig. 12 and to the piston rod 'IE5 of the Ingle patent above referred to (see Fig. 15 of Ingle). The members 59 and Sll may be suitably secured together by ccoperating inwardly flanged collar members 6l as shown. The member 59 has an upwardly extending portion having an aperture centrally thereof into which extends a depending stud portion G2, which may be integral with or rigidly secured to the ball 5B. Extending through the upper end part of the member 59 and through a vertically elongated slot b3 in the stud portion 62 is a suitable transverse rod or cotter pin Btl. The ball member 5B thus is carried by the member t@ with provision for a slight longitudinal movement in respect thereto, this movement being limited by the dimensions o the slot b3. The ball member 5t also carries a stud t5, which projects loosely through the aperture 5t and is adapted to be actuated by the receipt of the glass in the mold l.

The operation of the construction shown in Figs. 13 to i6 is as follows. At the time a charge oi glass is supplied to the mold l, the members and @il are in their uppost positions as shown in liigs. is and 16, and the pneumatic pressure, `Winch is normally used for counterblowing, is being supplied throng the bore il@ in the menif@ and thence through various bores in the member as shown to upon the bell member it onto the cooperating valve cutting on? door ci past this ng or the settling ci es of in vceipt oi' the e lorth 58 e, volume the . ce ci glass, which r ey in connection rf niece ntervening retract l downwardly l5 act the T 58 and stud sinn-v7 this whereupon 'fessure through the bore 6G or GO thence a the ball through the bores shown in the member 59 will flow through the aperture E@ and. expand the glass tato conformity with internal cavity of the mold land against the barde member l5. Preierebly after this expansion has been completed, but not necessarily after the termination of the application of counterbiowing air as aforesaid, the neck pin 5S is retracted out of contact with the glass by retracting the member This cornpletes the formation oi a hollow narison, or in. the event that the method and mold are adapted for single mold" operation, completes the formation of the desired article. However, if a twomold method of operation is being employed,

'fol bili@ eat dui-ing the such as here illustrated, the parison may then be ,ventional manner as illustrated in Fig. of the accompanying drawings.

Here again as with all theother forms of the invention, settling may be accomplished in any v way and this term is to be construed in its broadest sense, as above set forth. Also under certain circumstances, it may be desired that the mold and neck ring may be formed as a unit rather than separately as shown in the accompanying drawings. Such a construction is also within the purview of my invention.

I have illustrated in the accompanying drawings and described hereinabove ,various ways in which my invention may be put into effect, both from a method and from an apparatus point of view, the apparatus illustrated being specifically one which may be employed in conjunction with the Hartford I. S. machine, such as is shown and described in the Ingle patent aforesaid. I contemplate, however, that my invention is not to be limited to any one or more of the specific embodiments here illustrated, or to operation by a device as specifically disclosed by Ingle, but that the novel features thereof may be employed singly or in combination in any manner which will occur to those skilled in the art. I do not wish to be limited, therefore, except by the scope of the appended claims, which are to be construed as broadly as the state of the-prior art permits.

I claim:

1. In the manufacture of hollow glass articles, the method which comprises the steps of supplying a charge of plastic glass to a body mold and a cooperating neck ring through the open end of the body mold, settling the charge in the body mold and neck ring and around a neck pin while preventing contact between the glass and the central portion of the end of the neck pin and thus forming a neck nish portion for the article, and expanding the glass into conformity with the internal cavity of the body mold.

2. In the manufacture of hollow glass articles,

-the method which comprises the steps of supplying a charge of plastic glass to a body mold and a cooperating neck ring through the open end of the body mold, settling the charge in the body i the method which comprises the steps of supplying a. charge of plastic glass to a blank mold and a cooperating neck ring through the open end of the blank mold, settling the charge in the blank mold and neck ring and around a neck pinY while preventing contact between the glass and the central portion of the end of the neck pin and thus forming a neck finish portion for the artiele, supplying air through the .neck pin for at least initiating the formation of a cavity in the glass in alignment with the neck pin before withdrawing the latter from contact with the glass at the sides thereof, and completing the expansion of the glass into conformity with the internal cavity of the blank mold and thus forming a hollow parison.

4. In the manufacture of hollow glass articles, the method which comprises the steps of supplying a charge of plastic glass to a body mold and a cooperating neck ring through the open end of the body mold, settling the charge inthe body mold and neck ring and around a neck pin while preventing skin-forming contact between the glass and the central portion of the end of the neck pin by trapping a limited amount of air in a reentrant portion of the neck pin at the end thereof to prevent contact between the glass and such reentrant portion of the neck pin and thus forming a finished neck portion for the article, and thereafter expanding the glass into conformity with the internal cavity of the body mold.

5. In the manufacture of hollow glass articles, the method which comprises the steps of supplying a charge of plastic glass to a body mold and a cooperating neck ring through the open end of the body mold, settling the charge in the body mold and neck ring and around a neck pin while preventing skin-forming contact between the glass and the central portion of the end of the neck pin by trapping a volume of air in a reentrant end portion of the neck pin to prevent contact of glass with such reentrant portion and thus forming a neck finish portion for the article, and admitting counterblowing pressure through the neck pin into the reentrant portion thereof to expand the glass to conformity with the internal cavity of the body mold while still maintaining the neck pin in contact at its sides with the interior of the finish portion of the article.

6. In the manufacture of hollow glass articles, the method which comprises the steps of supplying a charge of plastic glass to a body mold and a cooperating neck ring through the open end of the body mold, settling the charge in the body mold and neck ring and around a neck pin while preventing skin-forming contact between the glass and the central portion of the end of the neck pin and thus forming a neck iinish portion for the article, admitting counterblowing pressure to the interior of the neck pin structure during the time settling of the charge is taking place as aforesaid, and initially establishing communication between the interior of the neck pin structure and the end of the neck pin for the admission of counterblowing pressure through the neck pin to expand the glass into conformity with the internal cavity of the body mold by relatively moving parts of the neck pin structure to provide a passage through the neck pin.

7. In the manufacture of hollow glass articles, the method which comprises the steps of supplying a charge of plastic glass to a blank mold and a cooperating neck ring through the open end of the blank mold, settling the charge in the blank mold and neck ring and around a neck pinby applying settle blowing pressure to the interior of the mold through the end thereof through which the charge was introduced thereinto while preventing skin-forming contact between the glass and the central portion of the end of the neck pin by trapping a volume of air in a reentrant portion atv the end of the neck pin and thus forming a neck finish portion for the article, admitting counterblowing pressure to the interior of the neck pin structure during the time settle blowing pressure is being maintained in the or' glass supplied to and being settled in the body mold, settling means associated with said mold and neck ring, a valve portion in said neck pin adapted to be opened to admit counterblowing pressure therethrough at least to initiate the-.gfor- 1o of th body mold at the termination of the settling operation, the aforesaid parts being so con- Y,structed and arranged that a volume of air will Y be trapped to form an initial cavity inthe glass at the end of VVVthe neck pin preventing sirintween theglass and the reentrant portion of the end of the neck pin. settling means associated Ywith said mold and neck ring, and a weighted Yvalve irr said neck pin so constructed and arranged as normally to be held in closed position by the weight associated therewith, but to be opened to permitV flow of counterblowing pressure through said neck pin by such pressure when it is supplied for enlarging the cavity formed by the trapped air at the Vupper end of the neck pin. s

18.. Apparatusior forming hollow glass articles, comprising a body inold adapted to be supplied with plastic glass through an Vopen end Yforming contact between such glass and lthe cen-Y thereof, a nck ring associated with the oppo- "tral portion of :the endY of the neck pin andn site end of said body mold, a neck pin associated thereby permitting initiation of the expansion of i with said neck ring, Ysettling means associated the glass immediately upon the termination of the i with said mold and neck ring", a structure supsettling operationf n 15. Apparatus for forming hollow glass articles, comprising a body mold adapted to be supplied with plastic glass through an open end thereof, a neck ring associated with the opposite end of said body mold, a neck pin associated with said neck ring and having lits end reentrant to form a boundary for a volume of air intermediate the end of the neck pin and a charge of glass supplied to and being settled in the body mold to prevent skin-forming contact ,between the glass and the reentrant portion of the endiof the neck pin,

settling means,Y associated with said mold and neck ring, and means for conducting counterblowing pressure through the neck pin ately upon the termination of the settling operaporting said neck pin and providing a cavity to which counterblowing pressure is adapted to be supplied in advance of the termination of the settling operation, an aperture communicating between said cavity and the end of said neck pin, arvalve within said structure controlling ilow of pressure through said aperture, and means extending through said aperture and arranged to bel actuated by the receipt of the glass for momentarily opening said valve tot. admit a.Y volunie of air through said neck pin to form a cavity in the glass'at the end thereotfor preventing skin-forming contact between the glass and the central portion of the end o; said neck pin. ,Y Y

19. Apparatus for iormingrrhollow glass arti- 5 tion for expanding the glass into conformity with i cles, comprising a body mold adapted'to be supthe internal cavity of the body mold while the Yplied with plastic glass through an open end neck pin lremains'-in contact at its sides with the thereof, a neck ring associated with'the opposite glass of the tlnish portion of the article in said end of said body mold. a neck pin associated rlk ring.' i' Ywith said neck ring, settling means associated 16. Apparatus for forming hollow glass artiwith said mold and neck ring, a structure supcles, comprising a bpdy mold adapted to besupporting said neck ring and providing a cavity to plied with plastic glass through an open end which counterblo'wing pressure is adapted to be thereof, a neck ring associated with the opposupplied in advance of the terminationcf the site end of said bodymold, arneck pin associated settling operation, an aperture communicating with said neck ring and having a portion at least between the said cavity and the end of said neck 45 of the end thereof reentrant so as to form a boundary of a volume of air trapped intermediate the reentrant end portionVY of the neck pin and the glass by the movement of a charge of pin in contact with the glass, a valve within said structure controlling flow of pressure through said aperture, means extending through said aperture and arranged to b actuated by the reglass supplied to said body moldjtoward said neck lrring, said trapped air serving Yto prevent skin-Y lorniing'ncontactY between the glass and the reentrant portion of the end of said neck pin, set-n tling means associated with said mold and neck" the glass and the central portion of the end of ring, and a valve Ymember mounted in said neck said neck pin, and a reentrant portion formed in pin and movable substantially axially thereof, 'i the end of said neck pin surrounding said aperceipt of the glass for momentarily opening said valverto admit a volume of air through said neck pin to form acavity inthe glass at the end therethe parts being so constructed andarranged that at Ythe termination 4of the settling operation, the valve member may be retracted to provide an 30 opening through said neck pin through which counterblowing pressure may be introduced to enlarge the cavity formed by the trapped ai' in the glass opposite the reentrant portion of said neck-pin andggto expand the 4glass into conformity with the internal cavity otsaid body mold.

17. Apparatus for forming hollow glass articles, comprising a body mold adapted to be supplied with plastic glass through the open upper end thereof, a neck ring associated with the'lower end of said body mold, a neck pin associated with said neck fing and-having Vithe end thereof reentrant to forni a boundary toria volume of air Y:

trapped between the upr reentr-:ant end of the neck pin and a charge of glass supplied to said adapted to be supplied in advance oi the termination of the settling operation, a valve seat formed in said structure surounding'said aperture and spaced from the end of said neck pin whichris adapt'ed to project into the glass, a valve member within said structure cooperating L with said seat and having a stem projecting body mold to prevent skin-forming contact beloosely through said aperture to be actuated by 75 of for preventing skin-forming contact between amante the receipt of the glass, means mounting said valve member for a limited movement longitudinally of said neck pin, and means-'for settling the glass in said mold and neck ring, the partsbeing so constructed and arranged that counterblowing pressure supplied within said structure will serve to force said valve member onto said seat, the valve later being unseated by contact of the glass with the stem thereof to permit pressure to iiow past the valve and along the valve stem to form a cavity in the glass at the end oi said neck pin, forcing the glass away `from said valve stem and permitting the counterblowing pressure vWithin said structure again to seat said valve.

2i. Apparatus for forming hollow glass articles, comprising a body mold adapted to be supplied 'with plastic glass through an open end thereof, a neck ring associated with the opposite end of said body mold, a neck pin associated with said neck ring and having an aperture extending longitudinally therethrough, a structure supporting l said neck pin and providing a cavity to which counterblowing pressure is adapted to be supplied in advance oi the termination of the settling operation, a valve seat forming a partial boundary of said cavity around said aperture, a valve supporting means relatively movable in respect to said heck pin and said structure, a ball valve member carried by said valve supporting -means and mounted for limited movement in respect thereto longitudinally of said neck ring structure and arranged to engage said seat in one position of the neck pin structure, a valve stem rigid with said ball valve member and extending loosely through said aperture for contact with the glass at the end of said neck pin, and means for settling glass in said mold and neck ring, the parts being so constructed and arranged that counterblowing pressure supplied within the cavity of the neckpin structure during the charging and settling of the glass in the mold will force said ball valve member onto its seat, the receipt of the glass in the mold and around the neck pin will serve to'unseat said valve to permit a limited amount of pressure to ow through said aperture around said stem toy form a cavity in the glass at the end of the neck pin and prevent skin-forming contact between the glass and the central portion of the end of the neck pin and also force the glass away from said stem to permit the counterblowing pressure within said cavity of the neck pin structure again to seat said valve, and retraction of the valve carrying member will retract said ball valve and its stem to provide a relatively large opening through said neck pin through which counterblowing pressure may ow to expand the glass into conformity with the internal cavity of said body mold.

22. Apparatus for forming hollow glass articles, comprising a blank mold adapted to be supplied with plastic glass through an open end thereof, a neck ring associated with the opposite end of said blank mold, a neck pin associated with said neck ring and having an aperture therethrough, a structure supporting said neck pin and providing a cavity to which counterblowing pressure is adapted to be supplied in advance of the termination of the settling operation, a valve arranged within said structure and adapted normally to be held closed by the counterblowing pressure sup- 4plied within said structure, a valve stem associated with said valve and arranged to be moved by the receipt of the glass in the blank mold to unseat said valve momentarily and permit pressure to ow through said aperture around the valve stem to provide a cavity in the glass at the end of the neck pin, and means for settling the glass in the mold and neck ring, said valve and neck pin being relatively movable to permit counterblowing pressure to ow freely through said neck pin to expand the glass into conformity with the cavity of said' blank mold and thereby to form a hollow parison.

23. In the manufacture of hollow glass articles, the method which comprises the steps of supplying a charge of plastic glass to a body mold and a cooperating neck ring and neck pin through the end of the body mold opposite the neck ring, forming in the glass of the charge a cavity opposite the end of the neck pin by the introduction of a gaseous iiuid under pressure through the neck pin to prevent skin-forming contact between the glass and the central portion of the end'of the neck pin, thereafter forcing the glass longitudinally of the body mold to fill the cavity in the neck ring around the neck pin by diierential pressure applied to the opposite ends of the glass charge while retaining in the cavity in the glass opposite the end of the neck pin formed as aforesaid gaseous medium under suflicient pressure to prevent the collapse thereof, and thereafter applying further pressure to the interior of the glass body to expand it into conformity with the internal configuration of the body mold.

GEORGE E. ROWE. 

